热电池的内阻大小直接影响着电池的负载能力。
The power output of the thermal battery is most dependent on the battery internal resistance.
过渡族金属硫化物是一类很好的热电池正极材料。
The transition-metal sulphides are widely used as cathode in thermal batteries, especially iron disulphide and cobalt disulphide.
以高温处理氯化镍作为热电池的正极材料制备热电池;
The thermal battery was prepared with high temperature-produced NiCl_2 as the cathode.
产品包括:快激活热电池、高功率热电池、长工作时间热电池以及耐高过载热电池等。
The products include quick initiating battery, high power battery, long service life battery and high acceleration endurance battery, etc.
从热电池的基本工作原理出发,研究了热电池放电过程中热量的产生、传递、散失变化特征。
According to the basic mechanism of thermal batteries, the heat producing, transfering and releasing during battery discharging were studied.
然而,太阳跟踪器的安装和运转都很昂贵,并且很容易造成过度加热电池,这足以降低它们的效率,甚至会造成毁损。
Such trackers, however, are expensive to install and run, and are prone to heat the cells up too much, which reduces their efficiency and may damage them.
这个为期两年的太阳能战士项目旨在制造一种能源包,能从一种太阳电池和热电的复合装置中收集能量并储存起来以备之后使用。
The two-year solar Soldier project aims to produce a power pack where energy is gathered from a combination of solar cells and thermoelectric devices before it is stored for later use.
与传统的热电厂相比,燃料电池有种种优势。
Fuel cells offer several advantages over traditional thermal power plants.
该团队将尝试探测电子传导的电流并制作基于热电子传导的太阳能电池板,即使其能量转化效率仍然很低。
The team will now attempt to detect the transferred electrons as current and make solar cells that exploit hot electron transfer, even if the efficiency is still low.
热电装置还可以用于其他领域,比如太阳能电池和太阳能加热系统。
And thermoelectric devices could be used in other areas. They could work alongside solar cells and solar heating systems.
由于太阳能电池板价格持续下跌,像鄂尔多斯这样的项目带来规模效益,光伏电站将比太阳能热电站更具竞争力。
As solar panel prices continue to fall and projects like Ordos bring further economies of scale, photovoltaic farms are expected to become more competitive with solar thermal power plants.
不过,如果基于热电子传导的高效太阳能电池板最终能实现的话,我们已经踏出了所必须的第一步。
However, if such high-efficiency solar cells based on hot-electron transfer are to be become a reality, we have shown the necessary first step.
而且它产生的热能能够被贮存起来,所以太阳能热电不会像光伏电池产生很大的波动。
And the heat they generate can be stored, so the output of a solar-thermal plant does not fluctuate as wildly as that of a photovoltaic system.
热电装置还可以用于其他领域,比如太阳能电池和太阳能加热系统。
They could work alongside solar cells and solar heating systems.
烧煤的热电厂的效率通常在30%到50%之间,使用天然气的联合循环燃气轮机系统最大效率在45%到50%之间,而很多专家认为高温燃料电池的效率可达到80%至85%。
The efficiency of a coal-fired thermal plant is typically in the range of 30%-35%. In a combined cycle gas turbine system running on natural gas, the maximum efficiency is in the range 45%-50%.
用铜导体将两个电池和电压表相连,以便使热电动势(VEMF)引起的误差减到最小。
Copper conductors connect the cells to the voltmeter to minimize errors due to thermoelectric EMFs (VEMF).
目前,纳米材料和纳米技术在太阳能电池、燃料电池、热电、催化剂、制氢储氢等能源领域已取得突出进展。
At present, nano-materials and nano-technology in solar batteries, fuel cells, thermoelectric, catalysts, hydrogen energy, such as hydrogen storage areas have made outstanding progress.
通过部分形成的系统在兰州西固热电厂的应用分析,认为蓄电池在线监测技术对蓄电池的维护有积极的作用。
Through analyze of application of part system in Lanzhou Xigu thermal power plant, active effects the on-line monitoring technique of storage battery to maintenance of storage battery.
金属硫化物在太阳能电池、热电材料以及存储装置等领域显示出了广阔的应用前景。
Metal sulfides have shown great potential in the areas of solar cells, thermoelectrical materials and memory devices.
对质子交换膜燃料电池(PEMFC)进行热量平衡计算,就热量的传递、综合利用,燃料电池热电联供技术,进行了阐述。
The heat balance of proton exchange membrane fuel cell (PEMFC) was calculated; the heat transfer and comprehensive utilization (the combined heat and power technology of fuel cell) were elaborated.
该文提出一种太阳能半导体冰箱并进行了实验研究与性能分析,它依靠太阳电池驱动,通过热电制冷效应制冷。
Experimental investigation and performance analysis on a solar cell driven, thermoelectric refrigerator was conducted. Research interest focused on testing the system performance under sunshine.
温差发电器(温差电池)是热电技术的另一重要应用。
Thermoelectric generator (thermoelectric battery) is another important application of thermoelectric technology.
热电材料利用固体氧化物燃料电池的余热发电,结构简单、成本低、热利用率高。
The thermoelectric material generates by residual heat of solid oxide fuel battery, the structure is simple, the cost is low and the heat utilization efficiency is high.
热电材料利用固体氧化物燃料电池的余热发电,结构简单、成本低、热利用率高。
The thermoelectric material generates by residual heat of solid oxide fuel battery, the structure is simple, the cost is low and the heat utilization efficiency is high.
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